JPH09502951A - A display that responds to axial forces - Google Patents

Abstract

(57) [Summary] A device for indicating the application of non-rotating force, which is particularly useful for recording the use of push-down aerosol dosing containers. The non-rotating force applied to the outer cover 20 is converted into rotation of the indicator wheel 50 relative to the outer cover by a set of flexible pawls 80 that engage a set of teeth 58. When the applied force deflects the pawl and rotates the tooth, the pawl is pushed down and extends in the circumferential direction. Appropriate means, such as a window 26 formed in the outer cover, indicate the relative rotation of the teeth (indicators on the indicator wheel are visible through the window). The device may also be equipped with measures for child tampering.

Description

Description: Display device responsive to axial forces BACKGROUND OF THE INVENTION The present invention mainly relates to containers, bottles, dispensers, cans and the like, and more particularly to a display mechanism for displaying the number of times a container, bottle, dispenser or can has been opened or used. The invention can also be used for any other application where it is necessary to display the number of times a given action has been performed. In the medical field, medicines have a certain therapeutic range in which the effect of taking the medicine is beneficial. Underutilization of the drug can lead to side effects of the drug on the user without reaching the level required for therapeutic action. On the other hand, overuse can cause side effects or toxicities of far greater magnitude than their possible utility. Thus, although it is extremely important for the patient to follow the prescribed instructions for medication, it is often forgotten whether or not the patient has taken the drug, or skips the drug, or repeatedly takes the drug. A significant number of dosing timing regimens have been used to solve the problem of reminding a patient to take a dose of medication or reminding the patient that they have already taken a dose of medication. The most commonly used regimens include the regimen to compartmentalize the medication required to place the medication in compartments that indicate the day, number of doses, duration of dose, or are serially numbered. These devices are theoretically satisfactory if they are responsible and have the time and patience to properly fill the compartment. Some medications are not in the form of pills or capsules at all, but are fumes like asthma or other common tracheal medications. These medications are often packaged as a liquid in a pressurized can, which releases a measured amount of a fumed dose into the patient's mouth or nose when actuated. Of course, such drugs cannot be packed in numbered compartments. In dispensing a single type of pill, bottle caps containing multiple windows have been invented. Through the window you can see the indexed moving element. In very few devices, the indicator element positions the window relative to each time the cap is loosened, removed, replaced, and retightened. Thus, by looking at the index marks displayed through the window, the user can know where in the repeat order of dosing. One of the constraints on most such devices is that they are designed to work only with closures that are disengaged from the container by the application of rotational force, such as screwed or bayonet type closures. It is that. The device generally does not work with closures that snap into and out of a container or other device that removes the contents of the container by applying an axial force, such as a can that operates by pushing. A serious drawback of window indexing prior art devices is that they do not warn the user if the user has not sufficiently turned the device during opening and closing to properly advance the window. If the user is unaware of the index value before opening and then closing such a device, the user will not be aware if the window has not advanced to the new index. Most users, especially elderly people who do not understand the workings of the device, are thus not very agile with the functioning of the device. Moreover, most prior art devices do not reliably lock bi-directional movements, allowing the index to move properly when the device is opened and closed, but no more when the device moves in the opposite direction. Movement is blocked. For this reason, the index fluctuates, which often causes a failure or inaccurate reading, especially after the device has been used for a long time. The device described in U.S. Pat. No. 4,011,829 issued Mar. 15, 1977 to Wachsmann, et al, attempts to ensure a two-way lock, but when closed it is indexed. Because the orientation of the teeth is designed to block the movement of the device, the device may not work reliably, especially after wear due to use. Also, the Waxman device can be unstable in operation over time because the ratchet teeth do not provide a space for the ratchet teeth to slide through the mating teeth when the device is moving in a tooth disengagement direction. Another drawback of the device is that it includes complex properties that are "child-safe" along with indexing properties, which makes the device extremely complex. Other characteristics of the device, such as the way in which it provides a lost-motion drive, and the need for posts holding the device together in the middle of the elements, also add to the complexity of the device. The device described in U.S. Pat. No. 3,151,599 issued to Livingston on October 6, 1964 provides a secure bidirectional lock but it is very closely spaced. Protrusions, which are difficult to manufacture economically. Further, the device does not provide space for the protrusions to move but slide relative to each other when not engaged. The device described in U.S. Pat. No. 4,666,051 issued May 19, 1987 to Trick has an indicator wheel, which is saw-like above and below the plane of the indicator wheel. The edge is protruding. The saw edges engage corresponding saws on the upper and lower elements to drive the display mechanism. Due to the rigidity of the saws, they tend to wear excessively as they slide against each other. The device of Schwab, European Patent Application No. 87 100917.2, issued July 29, 1987, has a cup-shaped outer element that engages a frustoconical closure cap. . The Schwab device is slightly more complicated in structure and manufacture. The device described in U.S. Pat. No. 4,220,247 issued September 2, 1980 to Kramer also includes a cup-shaped outer element that engages the inner element. Other devices in the art are U.S. Pat. No. 4,511,050 by Nicol, 4,365,722 by Kramer, and 4,749,093 by Trick. No. 4,782,966 by Thackrey, 4,753,189 by Mastman, 4,705,182 by Newel-Lewis, Griffen ( No. 4,662,520 by Griffen, No. 4,641,759 by Kelley, No. 4,634,012 by Kelley, No. 4,562 by Dennis. , 933, Allen, 4,528, 9335, Nicol, 4,511, 050, Hevoyan, 4, 548, 157, Kel. No. 4,501,370 by Lley), No. 4,489,834 by Thackrey, No. 4,432,300 by Lyss, No. 4, by Zoltan. No. 419,016, No. 4,405,045 by Villa-Real, No. 4,357,192 by Moser, No. 4 by Villa-Real. , 347,804, Ford's No. 4,094,408, Walton's No. 3,996,879, Carey's No. 3,960,713, Grau ( No. 3,926,326 by Grau, No. 3,921,568 by Fish, No. 3,887,099 by Gillman, No. 3,753 by Garby. , 417, Vendor (Bend er), 3,446,179, Dale, 3,334,731, Tregilgas, 2,943,730, Greene, 2,939. , 587, Guion, 2,587, 147, Adsit, 498, 851, Forrester, 4,500, 005, Livingston. No. 3,151,599, No. 4,666,051 by Trick, No. 4,345,541 by Villa-Real, No. 4 by Van Buskirk. No. 440,306, No. 2,767,680 by Lermer, No. 4,723,673 by Tartaglia, No. 2,644,452 by Brown. No. 4,646,936 by Frazier, No. 3,766,882 by Babbitt, No. 3,977,554 by Costa, and No. 1 by Rollman. No. 5,011,032, No. 5,188,251 by Kusz, No. 5,184,739 by Kusz, and European Patent No. 0230323 by Schwab. Thus, it is clear from a review of the art that there is a need for an improved display cap that operates by applying an axial force rather than a rotational force. Such a device should provide reliable and controlled movement of the index both when the device is open and when it is closed, while instructing the user that the index worked properly each time the device was used. Is preferred. The basic design of such a device can also be used in other applications where it is necessary to record the number of times a given event occurs. Such a cap is a minimal number of parts, is easily manufactured and assembled using standard injection molding and assembly techniques, and is not necessarily specially designed for the cap. It is preferable that it can be used together with. SUMMARY OF THE INVENTION The present invention is a display device including a display mechanism that moves forward by applying a force in the axial direction. Thus, the device translates axial forces into rotation of the display symbol carrier relative to the pointer or window. The device is particularly suitable for use with a nebulized medicament which is administered by applying an axial force to the can, or with a medicament held in a container with a snap closure. The advancing mechanism uses axial force to move two or more elements axially with respect to each other, and this relative axial movement is translated by the display mechanism into rotation of one element relative to another. It The invention in a preferred embodiment includes an outer cover having a top, a depending skirt attached to the top, and a driver (sometimes referred to herein as a retainer) nested in the skirt of the outer cover. The invention also includes a rotating mechanism that is separate from the outer cover and the driver. In the preferred embodiment, there is a display wheel or wheel nested between the driver and the outer cover in the skirt of the outer cover. The driver has several protrusions that fit into several notches on the radially inner surface of the outer cover to hold the entire assembly. The notch allows the measurement of the axial movement of the projection, so that there is some play in the axial direction between the driver and the outer cover. The indicator wheel has a set of teeth on one side that engages a set of flexible beveled pawls on the driver side and a set of teeth that engages a set of teeth on the outer cover on the other side. It has teeth on the other side. When an axial force is applied and the outer cover and driver are squeezed together, the outer cover and driver move slightly toward each other as the driver projections move axially through the outer cover notch. The driver's tilted pawls flex, or "flatten," toward the driver, thereby causing the driver and pawl ends to shift slightly about the driver's axis. This shift of the driver's toes that engage the teeth of the indicator wheel drives the indicator wheel to rotate it with respect to the driver. Rotation of the indicator wheel relative to the driver causes the indicator wheel to rotate relative to the outer cover. This is because the driver's protrusion is engaged with the notch of the outer cover to rotationally fix the driver and the outer cover. The side of the indicator wheel that abuts the outer cover is visible through the window of the outer cover, and an index (also referred to as a mark) that indicates a gradual rotation of the indicator wheel as the axial force repressing both the outer cover and the driver is repeatedly applied. Have). The index may be in the form of a series of numbers, which, in the preferred embodiment, produces a "gauge" when viewed through a window in the outer cover that appears to tilt as it is repeatedly used to progressively rotate the indicator wheel relative to the outer cover. It is a spiral line or pattern. In this way, the total number of medications administered is recorded and the user is to some extent instructed, for example, whether or not they have exhausted the can of fumed medication. Alternatively, the indicator wheel index may be a number or symbol that records or limits the number of doses taken per day, or a word such as "empty" or "full." When the axial force that presses the outer cover and the driver together is released, the driver's claw presses the outer cover and the driver apart. Therefore, the tip of the driver's claw can be deflected in the direction away from the driver, and can be rotated in the rotation direction opposite to the rotation direction when the axial force is applied. This opposite rotational movement of the tip of the driver's toe causes the tip of the driver's toe to "cock" the indicator mechanism so that it passes over the teeth of the indicator wheel and then axial force is applied. With this cock and drive action, the display wheel is advanced by one tooth each time an axial force is applied individually. As explained in the previous section, the device is completed by the rotational movement of the driver's toes relative to the indicator wheel so that the driver's toes pass over the teeth of the indicator wheel. During this cocking phase, the teeth on the opposite side of the indicator wheel engage the teeth of the outer cover to prevent the indicator wheel from rotating. In this way, the outer cover and the driver do not rotate with respect to each other and the indicator wheel rotates in one direction but not in the opposite direction. The teeth on one side of the indicator wheel and the claws of the driver engage to rotate the indicator wheel in its single direction, but the teeth on the opposite side of the indicator wheel and the teeth on the outer cover engage to cause the opposite. Prevents rotation of the indicator wheel in the direction. Thus, the present invention allows the application of axial forces such as, for example, canister fumes, snap closures or child-proof closures of the "swirling" type for pill bottles or capsules. Provided is a device for directing administration of a medicine via a medicine container that can be taken out by addition. In the case of a can, the driver may be attached directly to the can using adhesive or double sided tape, or a skirt may be included in which the driver is pressed into the end of the can, or the device may be attached to the can by any other suitable means. Can be attached to a can dispenser. The apparatus can also be used in any other application where it is desirable to instruct the occurrence of certain events. The device cannot advance without the application of the axial force necessary to remove the medication, but it will advance exactly and in predetermined increments when the axial force is applied. Another advantage of the present invention is that it produces an audible "click" that confirms it is working properly. An axial force is applied to remove the medication, so that when the indicator wheel is advanced, the teeth of the indicator wheel adjacent to the outer cover pass over the teeth of the outer cover, producing a "clicking" sound, Check the wheel advance. When the axial force is released, the driver's pawl passes over the teeth of the indicator wheel on the side adjacent to the driver, producing a second "click" sound, confirming the correct "cock" of the indicator mechanism. Other advantages of the invention include simplicity and reliability of fabrication, assembly, and operation. Brief description of the drawings FIG. 1 is an exploded sectional view of the present invention including a can and a can case, FIG. 2 is a top view of an outer cover of the present invention, FIG. 2A is a side sectional view of a part of the outer cover of the present invention, and 2B. FIG. 3 is a side sectional view of a part of the outer cover of the present invention, FIG. 3 is a top view of the display wheel of the present invention, FIG. 3A is a side sectional view of a part of the display wheel of the present invention, and FIG. Top view of an alternative embodiment of the invention, FIG. 3C is a side sectional view of an alternative embodiment of the present invention, taken along line 3C-3C of FIG. 3B, FIG. 3D is line 3D-3D of FIG. 3C. FIG. 3E is a side cross-sectional view of an alternative embodiment of the present invention taken along line 3D, FIG. 3E is a partial perspective view of an alternative embodiment of the mechanism for advancing the indicator wheel relative to the outer cover of the present invention, and FIG. FIG. 3G is a partial side view of the elements shown in the figures, and FIG. 3G is a partial perspective view of another alternative embodiment of the mechanism for advancing the indicator wheel relative to the outer cover of the present invention. Figure is a cutaway side view of the elements of Figure 3G, Figure 4 is a cutaway side view of a portion of the driver of the present invention, Figure 4A is a cutaway side view of a portion of the driver of the present invention, and Figure 4B is the present invention. Fig. 5 is a cutaway side view of a portion of the driver of Fig. 5, Fig. 5 is an exploded side view of another embodiment of the invention with a can and a can case, and Fig. 5A is a can used with an alternative embodiment of the invention. And a partial side view of the can case, FIG. 5B is a bottom view of the outer cover of the present invention, FIG. 6 is an exploded side view of an alternative embodiment of the present invention with a can and a can case, FIG. FIG. 6 is an exploded perspective view of an alternative embodiment of the present invention. Detailed description of the invention An exploded side view of the present invention 10 is shown in FIG. 1 along with a conventional canned aerosol dispenser 12. The dispenser 12 includes a can 14 housed in a can case 16. Grab the can case 16, A force (pressing force) that presses the can 14 toward the can case 16 is applied to operate a valve (not shown) in the can 14. A measured amount of medication from can 14 Also, the aerosolized medicament is dispensed from the can 14 by releasing from the can case outlet 18. The drug thus administered is typically Medicine for the respiratory tract, such as medicine for asthma, The can case outlet 18 is brought to the patient's mouth upon absorption of the patient. The device is extremely stable, Moreover, since the operation is simple, it is often operated by the patient himself without the intervention of a medical professional. Such fumed drug delivery devices are well known in the art, It will not be described in detail here. The present invention 10 has three main elements in the preferred embodiment shown in FIG. That is, the outer cover 20, Display wheel 50, The driver 70 is included. (While the invention in the preferred embodiment is mechanical, This mechanism is It should be appreciated that the application of force to actuate the valve can be replaced with a simple electronic button that can be attached to an actuating can. ) The three elements are described in detail with reference to FIG. 2 for the outer cover 20, 2A and 2B, 3 and 3A for the display wheel, Figure 4 for the driver A detailed description with reference to FIGS. 4A and 4B, Then The operation of the device will be described with reference to the previous figures. The outer cover is the top 22, An axially depending skirt 24 extending from the top. The axially depending skirt is designed to facilitate the assembly of this device. It may be slightly radially outwardly extended as it extends downwards in the manner shown. A window 26 extends through the top 22. As better shown in FIGS. 2 and 2A, The window 26 extends radially from near the center of the top to near the perimeter, The width is sufficient to allow the index on the display wheel 50 to be viewed as described later. The edge 28 of the window 26 enhances the aesthetics of the device as shown, Or in the dark, Alternatively, the chamfer may be chamfered to improve the tactile properties of the window for use with raised or sunken indexes on the annulus (ie, Braille symbols) that can be detected even when the field of view is compromised. A set of notches 29 are spaced around the radially inner surface of the depending skirt 24, The notch is better shown in the detailed cross-sectional view of Figure 2A. Each notch 29 includes a top wall 30 and a flat portion 34. The retainer 32 defines the lower end of the flat portion 34, An inclined portion 33 extends from the retainer to the bottom of the depending skirt 24. The width of the notch in the circumferential direction is There should be no significant circumferential play between the notch 29 and the protrusion 76, It is just sufficient to receive the protrusion 76 of the driver 70 as described below. The projections and notches of the preferred embodiment are slots and grooves, Holes and columns, Alternatively, it may be replaced by any other arrangement that allows axial movement of the outer cover relative to the retainer. In the center of the bottom surface of the top portion 22 of the outer cover 20, There is an axially extending hub 76 that matches the central hole 56 of the indicator wheel 50 in the following manner. On the bottom surface of the peripheral top 23 that mates with the depending skirt 24 is a set of outer cover teeth 40 that engage teeth 58 of the indicator wheel as described below. The teeth 40 of the outer cover, better shown in the detailed cross-sectional view of FIG. 2B, have a ramp 42 on one side, On the other side, the surface 44 that engages with the teeth 58 of the display wheel to engage the ratchet 58 between the outer cover 20 and the display wheel 50 in the following manner is used to engage the teeth 44 of the display wheel with the other side. Including. The display wheel 50 has an upper surface 52, A disk-shaped element having a lower surface 54 and a hole 56 penetrating therethrough. The diameter of the disc-shaped indicator wheel 50 is such that it is nested within the outer cover 20. The upper surface 52 includes a set of upper teeth 58 of the indicator wheel around the upper surface 42, as better shown in FIGS. 3 and 3A, The lower surface 54 includes a set of lower teeth 60 on the periphery thereof. The indicator wheel teeth 58 and 60 are best shown in the detailed side view of FIG. 3A. Both the teeth 58 on the upper surface 52 and the teeth 60 on the lower surface 54 are The inclined ramp portions 61, 62, Surface portion 63, 64 and 64 are included. As detailed below, The ramp portion 42 of the tooth 40 of the outer cover and the toe 86 of the nail 80 of the driver are the ramp portions 61 of the teeth 58 and 60 of the display wheel, 62, the riding wheel 50 can be rotated in one direction with respect to the outer cover 20 and the driver 70, On the other hand, the toe 86 of the driver's nail 80, The surface 44 of the tooth 40 of the outer cover is the tooth 58 of the indicator wheel, 60 faces 63, Engage with 64, The rotation of the display wheel 50 in the opposite direction with respect to the outer cover 20 and the driver 70 is prevented. On the upper surface 52 of the display wheel 50, as shown in FIG. There is a line 65 spirally extending from near the central hole 56 to near the radially inner edge of the upper tooth 58. The surface 66 on one side of the line is of one color, The surface 67 on the other side of the line is preferably of a different color. For example, the surface on one side is red, The surface on the other side may be white. Different colored surfaces 66, The line 65 with 67 Once the device is assembled, Since it is provided for viewing through the window 26 of the outer cover 20, A kind of gauge is obtained as detailed below. The various colors are printing, Painting, It can be carried out using an adhesive or other methods known in the art. The driver 70 It includes a circular base 72 with a bottom 74 shaped to fit the can 14 of the canned aerosol dispenser 12. Such cans typically have a concave end, Therefore, the bottom of the driver of the preferred embodiment is convex, as shown in FIG. 1, to match the concave end of the can. The driver 70 The can is mounted using a suitable driver mount, such as the double-sided adhesive pad 74 shown in FIG. The diameter of the base 72 is preferably approximately the same as the diameter of the can 14, It can be pushed into the can case 16 to activate the valve of the can as needed. Clamp or buckle, Or a fitting that integrates the driver with the can, Or other fitments are possible, such as those that make the device safe for children. One of such other fittings, The press fit garment is described in connection with the alternative embodiments described below. Above the base 72 of the driver 70 is an annular ring 75 that holds several elements. The annular ring 75 preferably has a diameter larger than the diameter of the base 72 and the can 14. For this reason, Since the end of the can does not touch the user, the user applies force directly to the can, Therefore, instead of flying the device 10, Rather, a force is applied to the device 10 to advance the display wheel 50 so that the medicine is handled. The annular ring 75 has a set of protrusions 76 protruding upward. As better shown in the detailed side view of FIG. 4A, Each protrusion 76 is a protrusion main body 77, It has a notch tip 78 that engages the notch 29 of the outer cover 29, as will be described below. Since the protrusion main body 77 is slightly flexible, When the driver 70 is installed in the outer cover 20, The projections 76 may flex radially inward as they pass through the chamfer 33 of the outer cover notch 28. The protrusion main body 77 and the protrusion tip 78 are The dimensions are such that there is some axial play between the driver 70 and the outer cover 20. That is, Since the projection 76 extends entirely into the notch 28, the top of the projection body 77 abuts the top wall 30 of the notch 29 (see FIG. 2A). On the other hand, whether the outer cover 20 and the driver 70 are located close to each other, Alternatively, the projection 76 may partially retract from the notch 28 so that the tip of the projection abuts the notch retainer 32, On the other hand, the outer cover 20 and the driver 70 are located further apart. A set of driver claws 80 extend upwardly from the annular ring 74 of the driver 70. Each driver's claw 80 has a claw base 82, As shown in FIG. 4B, a curved flexible pawl body 84 extends circumferentially and upwards and terminates at a pawl tip 86. The tip 86 of the tongue meshes with the tooth 60 on the lower side of the display wheel in a ratchet-like manner, so that the tip of the tongue passes over the ramp portion 62 of the tooth 60 on the lower side of the display wheel. Important aspects of this embodiment of the invention include: As exaggerated in Figure 4B, This is to enlarge the circumferential dimension of the claw 80 because the claw 80 is bent. The solid line claw is not relatively bent, The dotted claw is relatively bent. The undeflected position exists when the outer cover 20 and the driver 70 are located apart, such as when the driver protrusion 76 is retracted relative to the outer cover notch 29. In that position, The toe 86 is in the circumferential position "A". There is a flex position when the outer cover 20 and the driver 70 are located together, such as when the driver protrusion 76 is fully seated in the outer cover notch 29 relative to the notch top wall 30. In that position, The tip 86 of the nail is around the base 82 of the nail, Bending along the claw body 84 flexes downward. Bending the toes 86 The position A is moved to a position B which is spaced apart in the circumferential direction. When the claw 80 is in the relatively non-deflected position corresponding to the position A of the claw tip, the claw tip 86 is engaged with the lower tooth 60 of the display wheel. Press the outer cover 20 and the driver 70 together to bend the claws, As a result, by moving the tip of the nail to the position B, the display wheel 50 is forced to rotate the distance between the position A and the position B with respect to the driver 70. When the force between the outer cover 20 and the driver 70 is removed, The claw returns from the flexure and separates the outer cover 20 and the driver 70. The return of this bending causes the tip 86 of the claw to return to the position A. However, The display wheel 50 is Since the tip of the nail can ride on the ramp portion of the tooth 60 on the lower side of the display wheel, It does not return to its original position before it was bent. further, The display wheel is As described below, The one-way ratcheting action of the outer cover teeth 40 engaged with the upper teeth 58 of the indicator wheel is prevented from returning to the initial position. The device 10 is preferably made by a high speed process such as, for example, plastic injection molding. Once the three main elements have been molded, Put the display wheel 50 in the outer cover 20, Then press the protrusion 76 of the driver into the notch 29 of the outer cover, Therefore, the driver protrusion 76 is assembled manually or by an automatic assembly machine so that it is retained in the outer cover notch 29 by abutting the notch retainer 32 with the protrusion tip 78. When the protrusion 76 is located in the notch 29, The driver's pawl 80 flexes slightly to provide elastic force to the lower tooth 60 of the indicator wheel. This elastic force holds the display wheel 50 against the outer cover 20, Keep the upper wheel teeth 58 of the indicator wheel engaged with the outer cover teeth 40, Keep the engagement of the tip 84 of the nail with the lower tooth 60 of the display wheel, Moreover, the outer cover 20 and the driver 70 are positioned in a relatively separated position, Ready to use. After assembly, The device 10 uses double-sided adhesive tape or other suitable mounting means to The can shown in FIG. Or some other can, Glass bottle, Attached to a pharmaceutical container such as a bottle or container. The mounting means is Child-safe elements can be included so that the device is safe for child care. The device operates by applying an axial force that presses the outer cover 20 against the can 14. Several kinds of movements are generated by applying such a force, At the same time, such exercises Alternatively, they may occur sequentially in any order. One type of movement therein is the actuation of a valve on the can 14 to release a measured amount of fumed medication from the can through the outlet 18 of the can case 16. Another type of movement produced by applying an axial force that presses the outer cover 20 toward the can 14 is movement within the device 10. The axial force on the outer cover causes the outer cover to move towards the driver 70, Therefore, the protrusion 76 of the driver Move upward in the notch 29 of the outer cover until the top of the protrusion 76 abuts the upper wall of the notch 29 of the outer cover. This second type of movement-the movement of the outer cover 20 and the driver 70 caused by the axial force applied to the outer cover-also pushes down on the driver's pawl 80. The lower tooth 60 of the display wheel is engaged with the end portion 86 of the claw 80. As aforementioned, This depressing or flexing of the driver's claws Around the base of the nail 82 with the nail body 84, Moreover, since it pivots along the main body of the nail, the circumference of the nail is lengthened. FIG. 4B is exaggerated that the circumference of the claw 80 from the undeflected peripheral position A (the claw 80 is shown by a solid line) to the bent peripheral position B (the claw 80 is shown by a dotted line) is lengthened. Show. Since the tip 80 of the nail is engaged with the lower tooth 60 of the display wheel, The longer circumference of the driver's pawl 80 drives the indicator wheel over an incremental perimeter distance from position A to position B to rotate the indicator wheel 50 relative to the driver 70. Because the nails are flexible, This deflection can also flatten the bending of the pawl. The lower tooth 60 and driver claw 80 of the indicator wheel are dimensioned such that this circumferential transition increment is the length of a single tooth of the lower tooth 60 of the indicator wheel. The outer cover or outer cover 20 is Due to the engagement of the driver lugs 76 in the outer cover cutout 29, Since it is fixed with respect to the rotation with respect to the driver 80, The rotation of the display wheel 50 is It does not cause some rotation of the outer cover 20. Therefore, The overall effect on the device 10 of applying an axial force that biases the outer cover 20 towards the driver 70 is: The first one is, The outer cover 20 is displaced toward the driver 70 when the driver lug 76 is displaced upward in the outer cover notch 29, The second is, That is, the display wheel 50 rotates counterclockwise with respect to the outer cover 20 and the driver 70. The counterclockwise rotation of the display wheel 50 with respect to the outer cover 20 is A new part of the upper surface 52 of the indicator ring, The outer cover 20 is moved to the window 26. Referring to FIG. 3, The new portion of the upper wheel surface 52 is It is slightly clockwise from the upper surface 52 of the indicator wheel that was previously in the window 26. Looking through the window 26, it looks like a gauge, A spiral line or pattern as described above or as shown in FIG. Since the upper surface 52 has The gradual rotational movement of the upper portion 52 visible through the window is It has the effect of creating a rising or falling line in the window. Therefore, The axial force applied to the outer cover 20 is Rotate the display wheel 50 gradually, It causes the gauge to descend and rise in the window 26. Referring again to the preferred embodiment of FIGS. 1 through 3B and FIGS. 4 through 4B: The release of the axial force that biases the outer cover 20 toward the canister 14 is Bent driver poles 80 allow them to bend back toward their neutral free position. The bend back of this driver pole is Separate the outer cover 20 and the display wheel 50 from the driver 80, Thereby, Until the lug point 78 is stopped by the notch holder 32 (see FIGS. 4A and 2A), The driver lug 76 moves downward within the outer cover notch 29. The bend back of the driver pole 80 is The claw end 86 is returned from the circumferential position A to the circumferential position B. But, This circumferential movement of the pawl end 86 when the pawl 80 bends back is It does not cause any rotation of the indicator wheel 50. this is, Display wheel lower tooth 60, Has a ramp 62 on one side, With a surface 64 on the other side (see FIG. 3A), This is because it causes a one-way ratchet effect. The bending of the claw 80 when an axial force is applied to urge the outer cover 20 toward the pulling tool 80, Claw end 86, While engaging the surface 64 and driving the display wheel 50 through the incremental rotation movement, Move in the circumferential direction. But, Since the claw end 86 simply gets over the sloped portion 62 of the display wheel lower tooth 60, The release of that force and the resulting bending back of the pawl 80 and the circumferential retreat to the pawl end 86 Do not rotate the indicator wheel 50 in the opposite direction. The rotation of the display wheel 50 with respect to both the outer cover 20 and the driver 80 is With another important effect. When the display wheel 50 rotates with respect to the outer cover 20, The outer cover teeth 40 are Get over the upper wheel 58 of the display wheel. For more details, The ramp portion 42 of the outer cover tooth 40 Over the ramp portion 61 of the display wheel upper teeth 58. The outer cover tooth 40 and the indicator wheel upper tooth 58 are It is possible that the pawl end 86 moves in the circumferential direction from the position A to the position B (see FIG. 4B) during one cycle of application of an axial force for urging the outer cover 20 toward the driver 80. The display wheel upper teeth 58 are sized to move one tooth relative to the outer cover teeth 58. When the outer cover tooth 40 stops at the surface 63 of the display wheel upper tooth 58 when this movement of one tooth occurs, Generates an audible clicking sound. This clicking sound To the user Make sure the indicator wheel has advanced properly. The display wheel lower tooth 60 is as mentioned above, The circumferential movement of the claw end 86 caused by applying or releasing the axial force to the outer cover 20, It is sized to accommodate one tooth. Therefore, The circumferential movement within the pawl tip 86 resulting from the release of the axial force on the outer cover 20 is Equal to one tooth. The passage of the driver pawl 86 over the ramp portion 62 and over the tooth surface 64 of the indicator wheel lower tooth 60 is Generates another audible clicking sound. This clicking sound It doesn't resemble the first clicking sound mentioned above, Do not confirm the forward movement of the display wheel 50, because, The display wheel 50 is Because at that time it does not move forward. Rather, This clicking sound The driver's claw 80 advances by one tooth in the display lower tooth 60, Axial force is applied to the outer cover 20 to confirm that the driver claw 80 will advance the indicator wheel 50 the next time bending the driver claw 86. That the passage of the drive claw over the set of teeth produces a clicking sound, Despite the description, actually, There could be several clicks on the four claws, It is not possible to pass through each of those teeth at exactly the same time due to the dimensional error of the element, Should be recognized. Instead, There can be a fourth click that is only a little far away. The axial force is removed from the outer cover 20, When the driving claw as a driver is released from bending, The display wheel 50 is By the engagement of the display wheel upper teeth 58 and the outer cover teeth 40, It is actively prevented from returning to the last position it was last rotated. As mentioned above, The set of teeth 58 and 40 is Acts as a one-way ratchet, When the slope 42 of the outer cover tooth 40 is on the slope 61 of the display wheel upper tooth 58, the rotation of the display wheel 50 is allowed in one direction, Rotation of the indicator wheel 50 in the other direction is prevented when the surface 44 of the outer cover tooth 40 engages the surface 63 of the indicator wheel upper tooth 58. The device 10 is The preferred embodiment has been described as having teeth and pawls in certain positions on certain elements. If you are a person skilled in the art, Without departing from the scope of the present invention, Change the placement of these teeth and nails, Obviously, the opposite can be done. For example, But not limited to Rather than force being applied to the outer cover and the outer cover and the drive claws meshing, When the force is removed and the outer cover and the drive claw are separated, the display wheel advances, It is also possible to design teeth and nails. Also, Place your nails on the display ring, It is also possible to provide engaging teeth on the drive wheels. It is also possible to reverse the outer cover teeth and the indicator wheel upper teeth. Nails Provided between the outer cover and display wheel, not between the display wheel and drive wheel, The claw may be arranged on the upper surface of the display wheel or the lower surface of the outer cover. The nails and teeth on the various elements are Instead of being provided on the top or bottom to extend up or down, On the outer peripheral surface to extend radially outward (or on the inner surface to extend radially inward in the case of a disc having a central hole), Obviously, it may be arranged. As you can see from the drawing, The radial position of the claw 80 is Important for a given amount of rotation of the indicator wheel. As shown, Nails If it is placed towards the outer radial edge of the device, The shift of the claw end portion 86 in the circumferential direction due to the bending of the claw 80, It will cause a relatively small rotation of the indicator wheel. on the other hand, Nails Placed in the center of the device, The same amount of circumferential shift of the pawl end 86 due to flexure of the pawl 80 causes It will cause a relatively large rotation of the indicator wheel. Also, The degree to which the display wheel moves forward is It depends on the moving distance between the outer cover and the retainer. With a pair of long claws that increase the distance between the outer cover and the retainer, Make a big step forward, Since a pair of short claws produces a short advance, This is It is related to the length of the nail. of course, The degree of progress is It also depends on the curvature of the nail and the size of the device. As previously mentioned, The upper surface 56 of the display wheel 50 is Instead of a helix It can also be marked with a sloping line showing an increase or a decrease when viewed through the window 26, depending on the intended use of the device. For example, When it is necessary to ensure that a patient receives a fixed amount of medicine at a fixed time interval, To mark Abbreviation for the day of the week in a circle around the top surface 56 (for once-a-day dosing, soil, Day, Month, fire, water, Such, In the case of twice daily dosing, Sat 1, Sat 2, Day one, Day two, Month 1, Month 2, Etc.) can be added. The teeth and nails of the device are Each forward movement of the indicator wheel 50 created by applying a force that pushes the outer cover 20 toward the drive unit 70, So that it is a step forward of the display wheel, The size and shape are fixed. Therefore, When the device is repeatedly operated, The markings seen through window 26 are: soil, Day, Month, fire, water, Or soil 1, Sat 2, Day 1, Day two, Month 1, Month 2, And so on. In another example, The upper surface 56 of the display wheel 50 is It has a spiral as a mark, The teeth and nails of this helix and device The scale of the spiral part visible through the window is not the internal volume of the drug container, It may be shaped and sized to move over its entire range, based on the dosages accepted for the day or time chosen. For example, If the drug is prescribed within five times as needed to manage the patient, The scale will move over its entire range with 5 doses. Therefore, Just looking at the window, The user can see how close he is to his maximum daily dose. At the beginning of a new day, All that is required is to reset the scale. The spiral line on the top of the indicator wheel or indicator wheel 50 may extend about 360 degrees as shown in FIG. It may extend over any angle greater or less than that. When the spiral line extends to less than 360 degrees, of course, The gauge moves the full range before the display wheel makes one complete revolution with respect to the outer cover. in this case, When the gauge indicates that the container is empty and the next container will be used, It is necessary to reset the gauge. If the spiral line exceeds 360 degrees, Because you can see more than one part of the spiral line at the same time through the window, It becomes difficult for the user to confirm which line portion is the correct portion corresponding to the amount of the drug remaining in the container. on the other hand, The spiral line that extends over 360 degrees Rather than a spiral line extending over an angle of 360 degrees or less, This has the advantage that the gauge has to be "moved" by small increments. This is important. Because, This is because there is a practical limit to the number of teeth that can be engaged with the pawls of the device. Approximately 240 teeth (this number is It is possible to mold the number of doses of aerosol drug such as drug for asthma contained in a normal container) Molding a large number of teeth, well over 240, into a reasonably sized device is not easy. Therefore, Using about 240 doses of drug in a normal container with a device having 240 teeth, The display wheel rotates 1/240 of a full circle each time the drug is administered, One rotation of the display wheel should move the gauge from full to empty (dec line). However, If the container holds eg 500 doses, It is difficult to mold the 500 teeth required to make a gauge that moves from full to empty in one revolution of the display wheel. A solution to this problem is shown in FIG. 3B, which is a plan view of the present invention. The display wheel 50 is It has a spiral groove 51 that extends over 360 degrees (720 degrees in the embodiment of FIG. 3B). The spiral groove 51 is FIG. 3C is a cross-sectional view taken along line 3C-3C of FIG. 3B and is receiving a small marker 53 better shown by FIG. 3D, which is a cross-sectional view taken along line 3D-3D of FIG. 3C. The marker 53 is a small key that slidably fits into the spiral groove at the window 26. The key is By a pair of ears 55 extending along the spiral groove 51 under the outer cover 20, The spiral groove and the window 26 are restrained so as not to fall out. Therefore, When the display wheel 50 rotates with respect to the outer cover 20, The marker 53 slides in the spiral groove 51, It is parked so that it can be seen in the window 26. The marker 53 is As it slides in the spiral groove 51, Move radially toward the center or periphery of the outer cover 20, Functions as a gauge. of course, In order to make it easier to identify the marker from the display wheel 50 itself (background) visible through the window 26, An identification color can be applied to the marker. Also, Make the marker tabs flexible, It is also possible to allow the tab to deform so that it can return to the starting position after it has reached the end position. Also, It should be understood that the spiral lines or grooves need not be geometrically true spirals. For example, Spiral line or groove When it is near the periphery of the display wheel 50, it rapidly moves to the center, and when it is near the center of the display wheel 50, it moves slowly, It can be shaped to give the user sufficient warning when the contents of the container are low. The opposite approach is It is shown in the exploded perspective view of FIG. 7 with details omitted for clarity. This example The above-mentioned elements of the driving body 70, Display wheel 50, And an outer cover 20. However, The driving claws 73 are arranged in a small circle on one side of the driving body 70. Drive claw Does not directly engage a set of teeth on the display wheel 50, It engages a set of teeth on the bottom of the reduction wheel 71. The reduction wheel 71 has a set of reduction teeth 73 around it, The reduction teeth 73 engage the toothed hub 75 of the display wheel 50. The rotation of the reduction wheel 71 is When transmitted to the display wheel 50, It increases by the gear ratio of these two wheels. For example, if the gear ratio is 10: 1, When there are 200 teeth at the bottom of the reduction wheel 71 that are engaged one at a time by the pawls of the driver 70, The deceleration wheel is advanced 20 times to rotate the display wheel one complete revolution with respect to the outer cover 20. In place of the window in the preferred embodiment described above, a hole is provided in the outer cover, It should be understood that the hub of the display wheel can extend into the hole and be visible through the outer cover. in this case, The hub has an arrow and the outer cover has a set of symbols arranged in a circle, or The opposite is true. Each time the display wheel rotates with respect to the outer cover, The arrow points to the new symbol. Axial force applied to the outer cover is converted into rotation of the display wheel with respect to the outer cover, As shown in FIGS. 3E and 3F, It is possible to use other mechanisms. FIG. 3E shows the inside of the hanging skirt 24 of the outer cover 20, Looking radially outward, A partial perspective view is shown. Only part of the groove 23 and the depending skirt 24 are shown in FIG. 3E for clarity, The inside of the hanging skirt 24 extends radially, It has a groove 23 that completely surrounds the depending skirt 24. The upper portion of the groove 23 is bounded by the upper tooth set 21 and the lower tooth set 21A. In the groove 23 between the upper tooth set 21 and the lower tooth set 21A, At least one engagement tab 41 is arranged, The engagement tabs extend radially outwardly into the groove 23 from an indicator wheel (not shown for clarity). The engagement tab may be of any suitable cross section, One of FIGS. 3E and 3F has a circular cross section. In operation, The force applied to the top of outer cover 20 to administer the drug serves to move outer cover 20 and indicator wheel 50 together. The relative movement of the outer cover 20 and the indicator wheel 50 together causes the engaging tabs 41 of the indicator wheel to ride along the tooth ramps of the upper tooth set 21. Since the ramp is sloping, The engagement tab 41 rides on the ramp, Drive the display wheel 50 in the circumferential direction, This causes the display wheel 50 to rotate with respect to the outer cover 20. When the engagement tab 41 is at the bottom of the ramp, The outer cover 20 and the indicator wheel 50 cannot move closer to each other, The indicator wheel 50 cannot move further relative to the outer cover. The drug is administered, The force on the outer cover is released. The outer cover 20 then moves away from the indicator wheel 50 (this movement can be assisted by flexible pawls or other spring-like elements located between the outer cover 20 and the indicator wheel 50). Engagement tab 41 moves across the width of groove 23, Engage the tooth ramps of the lower tooth set 21A. The ramp then drives the engagement tab 41 to another circumferential increment, Another incremental rotation of the indicator wheel 50 with respect to the outer cover 20 is provided. Then, When a force is applied to the outer cover 20, the display wheel 50 rotates incrementally with respect to the outer cover 20, It will then be seen that when the force is released from the outer cover 20, it will again rotate in increments. Mark on the display wheel, Tooth 21, By adjusting the size of 21A, The device counts the number of doses of the drug in a distinguishable manner. Another mechanism that converts the axial force applied to the outer cover into rotation of the indicator wheel relative to the outer cover is It is shown in FIGS. 3G and 3H. The general idea of this mechanism is In conformity with the teeth having the ramp and the engagement device driven in the circumferential direction by the ramp, It is the same as that shown in FIGS. 3E and 3F. FIG. 3G shows the inside of the hanging skirt 24 of the outer cover 20, Looking radially outward, A partial perspective view is shown. The inside surface of the depending skirt has ribs 51 extending radially inward. For clarity, Only a portion of the hanging skirt 24 and ribs 51 is shown. However, it will be appreciated that the ribs extend around the entire perimeter of the depending skirt 24. The upper side of the rib 51 has an upper tooth set 53, The lower side of the rib 51 has a lower tooth set 53A. The display wheel 50 has a pair of tabs, an upper tab 57 and a lower tab 57A. The upper tab 57 extends radially outward from the display wheel 50 on the rib 51, The lower tab 57 extends radially outward from the display wheel 50 under the rib 51. In operation, The force applied to the top of outer cover 20 to administer the drug serves to move outer cover 20 and indicator wheel 50 together. This relative movement of the outer cover 20 and the indicator wheel 50 causes the lower tab 57A of the indicator wheel to rest on the tooth ramp of the lower tooth set 53A of the rib 51. Riding the lower tab 57A on the ramp causes the indicator wheel 50 to rotate incrementally with respect to the outer cover 20. When the lower tab 57A reaches the bottom of the ramp of the lower tooth set 53A, The outer cover 20 and the indicator wheel 50 cannot move together anymore, The indicator wheel 50 cannot rotate any further with respect to the outer cover. When the force applied to the outer cover is released, The outer cover 20 and the display wheel 50 are separated (this movement is again, A flexible pawl or other spring-like element located between the outer cover 20 and the indicator wheel 50). This leaving movement causes the upper tab 57 of the display wheel 50 to ride on the tooth ramp of the upper tooth set 53 of the rib 51 of the display wheel 50. This riding of the upper tab 57 on the ramp creates another incremental rotation of the indicator wheel 50 with respect to the outer cover 20. next, Another example is described for use with different types of aerosol dosing containers. FIG. 5 shows a distributor 112 with a can container 116, A drive unit 170, Display wheel 150, The outer cover 120 is shown. (For ease of reference, The reference numerals in the 100s in FIG. 5 without the first numeral “1” generally correspond to the reference numerals in FIG. ) The can container 116 is In that it has a can container outlet 118 and a body that houses the can 114, This is the same as the can container 16 in FIG. 1 described above. However, As best shown in Figure 5A, The main difference is The can container 116 extends almost to the top of the can 114, That is, the upper portion of the can container 116 is substantially flush with the upper portion of the can 114. There is a notch 115 on the side wall of the can container that is slightly larger than a normal index finger, Another similar notch is on the opposite side wall. To activate the device for dosing, It is necessary to place the index finger on this notch while applying an axial force that pushes the can 114 downward and into the can container 116. as a result, As the can 114 moves down, Fingers down, It can move into the notch 115. If a person applies an axial force with a finger that is not on the cutout 115, The upper end of the can container 116 receives the force, Can 114 To activate the internal valve to deliver the medication jet, Or To activate the mechanism that advances the display wheel, It does not fall correctly into the can container 116. The drive device 170 is The skirt portion 172 is provided. On the inner peripheral surface of the skirt portion 172, a set of several bumps 175a are provided apart from each other, Its thickness is The skirt portion 172 is press-fitted into the canister 114 so that the driving device 170 can be held in the can 114. The driving device 170 can also be mounted by adhesion as described in FIG. 1 or other mounting means, On the contrary, it should be understood that the adhesive mounting of FIG. 1 can also be performed by the press fitting mounting of FIG. Similar to the drive device 70 of FIG. 1, The drive 170 of FIG. 5 includes an annular ring 175 on a base 172, And a set of upwardly projecting lugs 176 provided therein. Each rug is A lug body 177 having flexibility, Lag point 1 78, And a set of claws 180 that are flexible and curved and extend upward. These are substantially the same as those in the embodiment of FIG. The display wheel 150 of the embodiment shown in FIG. It is substantially the same as the display wheel 50 of the embodiment shown in FIG. The display wheel 150 is The top surface 152, The lower surface 154, The central hole 156, A set of upper teeth 158, And a set of lower surface teeth 160. The outer cover 120 of the embodiment shown in FIG. To some extent similar to the outer cover 20 of the embodiment shown in FIG. A generally circular top 122, A window 126 penetrating it, A skirt portion 124 hanging in the axial direction, The skirt portion 124 has a pair of notches 129 that are provided on the inner peripheral surface thereof so as to be separated from each other. The hanging skirt portion 124 is Unlike the axially depending skirt portion 24 shown in FIG. 1, The skirt portion 124 of this embodiment is longer, It has a set of lugs 12 1 for infant care. These lugs 121 are The skirt portions 124 are provided on the radially inner peripheral surface so as to be separated from each other. The baby tamper rug 121 is In FIG. 5B seen along the line 5B-5B in FIG. Better shown. As can be seen from Figure 5B, The tamper-proof rug is Not evenly spaced, A pair on one side, Another pair is provided on the opposite side. If one pair is aligned with the notch 115 in the side wall of the canister 116, When the can is pushed down, So that this one pair falls into the notch 115, These two pairs of lugs 121 are separated. at the same time, of course, The other pair of lugs hangs into the opposite notch. But, If the two pairs of infant tamper lugs 121 are not aligned with the notches, Since the lug 121 contacts the top of the can container 116, The can is never pushed down, The medicine is ejected by energizing the valve in the can container. To take measures against infant mischief in the entire system, after use, Rotate device 110 along can 114 by a non-integer multiple of 180 °, It is sufficient that the two pairs of lugs 121 are not aligned with the cutouts 115. The next time you use Rotate the device 110 with the canister 114, Realign the two pairs of lugs and the two notches 115. Thereby, The device 110 descends over the canister 116, The lug 121 descends into the notch 115. In order to inform the user that the child's anti-tampering lug 121 is properly aligned with the notch 115 and can supply the medicine, Alignment indicating arrows or other indicators (not shown) are provided on device 110 and canister 116. Next, Yet another embodiment for use with other aerosol drug can containers is described. Figure 6 shows A can container 216, Driver 270, Display wheel 250, A dispenser 212 with an outer cover 220 is shown. The can container 216 is The design is well known in the art, It is completely different from the can container 16 shown in FIG. 1 and the can container 16 shown in FIG. The can container 216 is With a can holder 227, And an aerosol chamber 217 with a dispensing opening 218. The aerosol chamber 217 is With a hollow tube, It holds a can container 227, When not in use, The entire can container 216 is Crush into a container approximately the size of the aerosol chamber 217. The can container 215 is At the bottom, It has a slot 221 that receives the tab 219 of the aerosol chamber 217. When the device is ready for next use, as described below, The canister 215 further comprises longitudinal ribs 223 which engage the notches 225 of the aerosol chamber 217. When using the device, The nested can container 227 is pulled out from the aerosol chamber 217. Rotate the tab 219 of the aerosol chamber in the slot 221 of the can holder, The can holder 227 and the aerosol chamber 217 are assembled at a right angle as shown in FIG. This right angle assembly is This is ensured by engaging the can holder rib 223 with the notch 225 of the aerosol chamber. As mentioned above, The can container 216 of the form shown in FIG. 6 is conventional and well known in the art, No further details will be given. The invention 210 of FIG. 6 is The driver or drive 170 of FIG. A drive device 270 having the same design as each of the display wheel 150 and the outer cover 120, In that it includes the display wheel 250 and the outer cover 220, It is substantially equivalent to the invention 110 of FIG. (For easy matching, The serial number of 200 in FIG. 6 is Generally corresponds to the serial number of 100 in FIG. 5, Where the last two digits are the same, The first number is In FIG. 5, it is “1”, It is "2" in FIG. ) Invention 210 is In the same manner as the embodiment of FIG. 5, By crimping the drive device 270 to the end of the canister or can 214, Attached to the canister 214. As can be seen from FIG. The canister holder 216 is A cutout 233 on one side, It includes another cutout (not shown) on the other side. Like the cutout 115 in FIG. 5, The cutout portion 233 in FIG. 6 is To activate the internal valve and inject the drug, When the canister 214 is pushed down into the canister retainer 227, Designed to fit the user's finger. However, In the inventions of FIGS. 5 and 6, These cutouts are used to protect the device from childhood mischief. Two pairs of protruding portions 221 are disposed on the inner surface of the skirt 224 of the outer cover 220. If each pair of protruding portions 221 is centered with respect to cutout portion 233, In that case, As each pair of protruding portions 224 descends into cutout portion 233, So that the skirt 224 covering the outside passes over the top surface of the canister holder 227, By pushing invention 210 down toward canister retainer 227, The internal valve may be actuated to inject the drug. However, If each pair of protrusions 224 were not centered so much with respect to the cutout, In that case, Operate the internal valve to eject the drug, Or any attempt to advance the indicator wheel by actuating the indicator mechanism, It will be obstructed by the protruding portion 224 that abuts the top surface of the canister retainer 227. Therefore, The user must be sure that there is proper alignment between invention 210 (such as matching alignment marks not shown) and canister retainer 216. The device has taken measures against childhood mischief. This is something that a small childhood usually cannot do. Other means for providing childhood anti-tampering with the device are: It is related to the length of the suspension skirt 224 of the outer cover 20. As previously mentioned, The canister holder 227 is removed from the atomizer chamber 217, It is then hinged at approximately a right angle to the medication. After the drug is dispensed, The canister holder 227 collapses and returns into the spray chamber 217. However, Even in the collapsed state User, Or if the dispenser does not include a display device according to the invention, A child The medication can be dispensed by simply pushing on the end of the canister 214. this is, Using the display device of the present invention, When the canister holder 227 collapses and enters the sprayer 217, It can be avoided by lengthening the suspension skirt 224 to the extent that it abuts the end of the spray chamber 217, as a result, Any force applied to the outer cover 220 is recorded in the spray chamber 217, Not transferred to the canister 214 for dispensing medication. When the device is ready for use, The canister holder 227 is taken out of the spray chamber 217, Hinged at a right angle to it, as a result, The outer cover 224 no longer abuts the end of the spray chamber 217, The force applied to the outer cover 229 is transferred to the canister 214, The internal valve is activated to allow injection of the drug.

Claims (1)

[Claims]   1. An outer cover,   A display member that engages with the outer cover;   Non-rotating engagement with the outer cover and display member and applied to the outer cover A force for converting force into rotation of the display member relative to the outer cover. With a rolling mechanism,   One of the outer cover and the display member has a display, and the outer cover and The other of the display members has a display selection member for selecting the display, When the display selection member rotates relative to the outer cover, the display selection member will A display device in which the display selection member is configured to move.   2. The rotating mechanism includes at least one pawl and a set of pawl engaging teeth, Flexure moves the teeth and rotates the indicator wheel relative to the outer cover The display device according to claim 1.   3. The display wheel includes a holding member that fits in the hanging skirt portion of the outer cover. Is disposed between a top portion of the outer cover and the holding member. The display device described in the item.   4. The outer cover has an axial direction by a limited amount relative to the holding member. The display device according to claim 3, which can be moved in the opposite direction.   5. One of the outer cover and the retaining member includes a pair of notches, The other of the outer cover and the retaining member includes a set of protrusions, the protrusions It is slidably positioned within the notch and is located between the outer cover and the retaining member. The display device according to claim 4, which permits a defined approaching and separating movement.   6. The protrusion has a body portion and a tongue, and the protrusion is deformable. Snaps into the notch and is retained by the tongue in the notch The display device according to claim 3.   7. The pawl has a tooth engaging end that engages with the pawl engaging tooth, and the deformation of the pawl is The pawl is configured to rotate the pawl engaging tooth by displacing the tooth engaging end in the circumferential direction. The display device according to claim 3.   8. The range according to claim 7, wherein the claw extends in the circumferential direction and separates from the tooth engaging end. Display device described.   9. The claw is attached to one of the outer cover and the display wheel, A claw engaging tooth is attached to the other of the outer cover and the display wheel. The display device according to item 8.   Ten. The spring forcibly separating the claw from the claw engaging tooth by the rotation mechanism. The display device according to claim 9, comprising:   11. The display device according to claim 10, wherein the spring is the claw. .   12． One of the display wheel and the holding member has a ratchet, the display wheel And the other of the holding members has a set of ratchet engaging teeth, the ratchet engaging The artificial teeth allow rotation of the indicator wheel relative to the retaining member in the first direction, , The second direction opposite to the first direction does not allow the rotation. The display device described in.   13. The claw is attached to one of the display wheel and the holding member to engage the claw. The tooth is attached to the other of the display wheel and the holding member according to claim 9. Display device described.   14. The spring forcibly separating the claw from the claw engaging tooth by the rotation mechanism. The display device according to claim 8, which includes:   15. The display device according to claim 14, wherein the spring is a claw.   16． One of the outer cover and the display wheel has a ratchet, The other of the cover and the indicator wheel has a set of ratchet engaging teeth, and the ratchet The engaging teeth prevent rotation of the indicator wheel relative to the outer cover in the first direction. Allowed but not allowed to rotate in a second direction opposite to the first direction. The display device according to item 14.   17. The rotation mechanism has a first inclination and an inclination engagement member, and thus the outer side Non-rotational force applied to the cover slides the tilted engagement member along the first tilt. And moving the display wheel relative to the outer cover. The display device described in item 2.   18． The first slope is attached to one of the outer cover and the display wheel. And the inclined engagement member is attached to the other of the outer cover and the display wheel. The display device according to claim 17.   19. The rotating mechanism further has a second tilt capable of engaging with the tilt engaging member, Therefore, when the non-rotational force applied to the outer cover is released, the second tilt is released. The slanted engagement member slides along the surface of the outer cover and the slanted engagement member slides relative to the outer cover. The display device according to claim 18, wherein the wheel is further rotated.   20. The first tilt includes a set of first tilt teeth, each of the first tilt teeth being tilted. A portion, the second bevel includes a set of second bevel teeth, each of the second bevel teeth. Has an inclined portion, the second inclined tooth is spaced apart from the first inclined tooth. And the inclined engagement member is a tab provided in the gap portion. The display device according to item 19.   twenty one. Further comprising a retaining member that fits within the depending skirt portion of the outer cover, The indicator wheel is disposed between the top of the outer cover and the holding member. The display device according to item 18.   twenty two. One of the outer cover and the retaining member includes a pair of notches, The other of the outer cover and the retaining member includes a set of protrusions, the protrusions It is slidably positioned within the notch and is located between the outer cover and the retaining member. 22. The display device according to claim 21, which allows a defined approaching and separating movement.   twenty three. The protrusion has a body portion and a tongue, and the protrusion is deformable. A snap fit into the notch and retained by the tongue in the notch. The display device according to item 22.   twenty four. The rotation mechanism forcibly separates the first tilt and the tilt engaging member from each other. 24. A display device as claimed in claim 23 including pulling.   twenty five. One of the display wheel and the holding member has a ratchet, the display wheel And the other of the holding members has a set of ratchet engaging teeth, the ratchet engaging The artificial teeth allow rotation of the indicator wheel relative to the retaining member in the first direction, 25. In the second direction opposite to the first direction, the rotation is not allowed. The display device described in the item.   26. One of the outer cover and the display wheel has a ratchet, The other of the cover and the indicator wheel has a set of ratchet engaging teeth, and the ratchet The engaging teeth allow rotation of the indicator wheel relative to the retaining member in the first direction. However, in the second direction opposite to the first direction, the rotation is not allowed. The display device according to item 24.   27. The top of the outer cover has a window through which the indicator wheel selectively The display device according to claim 2, which includes a visible display.   28. The device of claim 27 wherein the window is generally a top A display device, wherein the display device extends from a center toward a peripheral edge of the top.   29. 29. The device according to claim 28, wherein the mark on the display wheel is a spa Including a spiral line, a portion of the spiral line being visible through the window, This allows rotation of the indicator wheel with respect to the outer cover to be seen through the window. Characterized in that the spiral line portion that can be moved is moved in relation to the window. Display device.   30. The device according to claim 29, wherein the spiral wire is one Display device characterized by having one color on one side and a different color on the other side .   31. 29. The apparatus according to claim 28, further comprising the outer cover and And a marker slidably mounted on one of the indicating wheels, More slides as the marker rotates with respect to the outer cover of the indicator wheel A display device characterized by the above.   32. 32. The device according to claim 31, wherein the display wheel is the marker. A mounting portion for slidably mounting the mounting portion, the mounting portion being a top portion of the outer cover. Is adjacent to the one side of the display wheel, and the marker is spirally formed on the display wheel. Slidably extending in a spiral pattern, and the marker is attached to the outer cover. Suppressed from relative rotation to the bar but relative to the outer cover Can be moved in a radial direction to the half of the marker with respect to the outer cover. Radial position moves as the indicator wheel rotates relative to the outer cover A display device characterized by.   33. The device of claim 32, wherein the top portion of the outer cover A minute portion including a window extending generally in a direction from a center of the top portion to a periphery thereof; Has a frame, and the marker is visible through the window and the front The frame suppresses relative rotation with respect to the outer cover. And display device.   34. 33. The apparatus according to claim 32, wherein the spiral mounting portion is the Adjacent to the top portion of the outer cover, extending 360 ° or more around the side of the display wheel. A display device characterized by the above.   35. By applying force to the can, the aerosol drug is released from the can A device for indicating the release of aerosolized drug from a can, the device holding the can A dispenser including a can case for advancing in the action of said force A display device including an indicator for displaying the release of an aerosol drug.   36. The device according to claim 35, wherein the indicator is an outer cover. An indicator wheel engaged with the outer cover, and an indicator wheel engaged with the outer cover and the indicator wheel Includes a rotating mechanism for transmitting a non-rotating force to the outer cover to engage the outer cover. The relative rotation of the indicator that releases the aerosol drug from the can causes A display device characterized by displaying the release of a sol drug.   37. The device of claim 36 wherein the outer cover is a top portion. A minute and depending skirt, and the indicator wheel is further of the outer cover. A retainer nested in a depending skirt, wherein the indicator wheel is in the outer cover. A display device, wherein the display device is arranged between a top portion of the holder and the holder.   38. 38. The apparatus of claim 37, wherein the can includes an end, The dispenser can case includes an opening for receiving the can, and the indicia Display device characterized in that the wheel includes a mounting portion for mounting the display wheel on the can. .   39. The device according to claim 38, wherein the mounting portion of the display wheel is a front portion. Indication that is an adhesive pad that can be adhered to the end of a storage can apparatus.   40. The device according to claim 38, wherein the mounting portion of the display wheel is A recess, wherein the can can be pressed and filled into the recess. Display device to collect.   41. 38. The device according to claim 37, wherein the dispenser and And indicator includes an infant blocking element to prevent infants from releasing the element drug A display device characterized by:   42. 42. Apparatus according to claim 41, wherein said infant blocking element. In one of the hanging skirt of the outer cover and the dispenser At least one protrusion, and the depending skirt of the outer cover and the decap A projection matching portion that matches the projection on the other side of the spencer, and The force exerted on the indicator wheel is transmitted to the can only when the protrusion mating parts are aligned. A display device characterized by the above.   43. The device of claim 42, wherein the outer cover hangs down. The skirt is acted upon by the force to release the aerosol drug so that the protrusion is within the radius. One side of the can case when it is a protrusion on the hanging skirt extending in the direction. Extending beyond that portion, and the protrusion mating portion is a cutout portion in the can case. So that the skirt of the outer cover is free to extend over a portion of the can case. To release the aerosol drug when the protrusion is aligned with the resection However, the skirt of the outer cover extends freely beyond a portion of the can case. Not release the aerosol drug when the protrusion is not aligned with the resection. Display device characterized by emitting.   44. The apparatus of claim 41, wherein the dispenser is a front A can case including an aerosol chamber slidably attached to the can case, whereby said can A case holds the aerosol in a first position for holding the dispenser. Slides into the chamber, and the can case is the second for releasing the aerosol drug. A display device, wherein the display device slides out of the aerosol chamber at a position.   45. The device of claim 44 wherein the aerosol chamber is a rim. Has one end with and has a depending strip of the rim and the outer cover. The cart will contact the skirt against the hanging skirt, When in the first position, it inhibits release of the aerosol drug, Release drug when impacting the cart and the dispenser is in the second position A display device characterized by blocking.   46. The device of claim 45, wherein the can case has an opening. And a display device secured to the can through an opening in the can case. And can operate when the can is pushed down into the can case. A release valve that is capable of exerting force on the indicator wheel by the can. Is pushed down into the can case and the dispenser is in the first position When the force is resisted by the rim of the aerosol chamber, the dispenser Is not blocked by the rim of the aerosol chamber when in the second position. Characteristic display device.